GLI2 inhibition abrogates human leukemia stem cell dormancy

Anil Sadarangani; Gabriel Pineda; Kathleen M. Lennon; Hye Jung Chun; Alice Shih; Annelie E. Schairer; Angela C. Court; Daniel J. Goff; Sacha L. Prashad; Ifat Geron; Russell Wall; John D. McPherson; Richard A. Moore; Minya Pu; Lei Bao; Amy Jackson-Fisher; Michael Munchhof; Todd VanArsdale; Tannishtha Reya; Sheldon R. Morris; Mark D. Minden; Karen Messer; Hanna K.A. Mikkola; Marco A. Marra; Thomas J. Hudson; Catriona H.M. Jamieson

doi:10.1186/s12967-015-0453-9

GLI2 inhibition abrogates human leukemia stem cell dormancy

Anil Sadarangani, Gabriel Pineda, Kathleen M. Lennon, Hye Jung Chun, Alice Shih, Annelie E. Schairer, Angela C. Court, Daniel J. Goff, Sacha L. Prashad, Ifat Geron, Russell Wall, John D. McPherson, Richard A. Moore, Minya Pu, Lei Bao, Amy Jackson-Fisher, Michael Munchhof, Todd VanArsdale, Tannishtha Reya, Sheldon R. MorrisMark D. Minden, Karen Messer, Hanna K.A. Mikkola, Marco A. Marra, Thomas J. Hudson, Catriona H.M. Jamieson^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Dormant leukemia stem cells (LSC) promote therapeutic resistance and leukemic progression as a result of unbridled activation of stem cell gene expression programs. Thus, we hypothesized that 1) deregulation of the hedgehog (Hh) stem cell self-renewal and cell cycle regulatory pathway would promote dormant human LSC generation and 2) that PF-04449913, a clinical antagonist of the GLI2 transcriptional activator, smoothened (SMO), would enhance dormant human LSC eradication. Methods: To test these postulates, whole transcriptome RNA sequencing (RNA-seq), microarray, qRT-PCR, stromal co-culture, confocal fluorescence microscopic, nanoproteomic, serial transplantation and cell cycle analyses were performed on FACS purified normal, chronic phase (CP) chronic myeloid leukemia (CML), blast crisis (BC) phase CML progenitors with or without PF-04449913 treatment. Results: Notably, RNA-seq analyses revealed that Hh pathway and cell cycle regulatory gene overexpression correlated with leukemic progression. While lentivirally enforced GLI2 expression enhanced leukemic progenitor dormancy in stromal co-cultures, this was not observed with a mutant GLI2 lacking a transactivation domain, suggesting that GLI2 expression prevented cell cycle transit. Selective SMO inhibition with PF-04449913 in humanized stromal co-cultures and LSC xenografts reduced downstream GLI2 protein and cell cycle regulatory gene expression. Moreover, SMO inhibition enhanced cell cycle transit and sensitized BC LSC to tyrosine kinase inhibition in vivo at doses that spare normal HSC. Conclusion: In summary, while GLI2, forms part of a core HH pathway transcriptional regulatory network that promotes human myeloid leukemic progression and dormant LSC generation, selective inhibition with PF-04449913 reduces the dormant LSC burden thereby providing a strong rationale for clinical trials predicated on SMO inhibition in combination with TKIs or chemotherapeutic agents with the ultimate aim of obviating leukemic therapeutic resistance, persistence and progression.

Original language	English
Article number	98
Pages (from-to)	1
Number of pages	1
Journal	Journal of Translational Medicine
Volume	13
Issue number	1
DOIs	https://doi.org/10.1186/s12967-015-0453-9
State	Published - 12 Dec 2015
Externally published	Yes

Keywords

Cell cycle
GLI2
Leukemia stem cells
PF-04449913
Smoothened SMO
Sonic hedgehog

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Sadarangani, A., Pineda, G., Lennon, K. M., Chun, H. J., Shih, A., Schairer, A. E., Court, A. C., Goff, D. J., Prashad, S. L., Geron, I., Wall, R., McPherson, J. D., Moore, R. A., Pu, M., Bao, L., Jackson-Fisher, A., Munchhof, M., VanArsdale, T., Reya, T., ... Jamieson, C. H. M. (2015). GLI2 inhibition abrogates human leukemia stem cell dormancy. Journal of Translational Medicine, 13(1), 1. Article 98. https://doi.org/10.1186/s12967-015-0453-9

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title = "GLI2 inhibition abrogates human leukemia stem cell dormancy",

abstract = "Background: Dormant leukemia stem cells (LSC) promote therapeutic resistance and leukemic progression as a result of unbridled activation of stem cell gene expression programs. Thus, we hypothesized that 1) deregulation of the hedgehog (Hh) stem cell self-renewal and cell cycle regulatory pathway would promote dormant human LSC generation and 2) that PF-04449913, a clinical antagonist of the GLI2 transcriptional activator, smoothened (SMO), would enhance dormant human LSC eradication. Methods: To test these postulates, whole transcriptome RNA sequencing (RNA-seq), microarray, qRT-PCR, stromal co-culture, confocal fluorescence microscopic, nanoproteomic, serial transplantation and cell cycle analyses were performed on FACS purified normal, chronic phase (CP) chronic myeloid leukemia (CML), blast crisis (BC) phase CML progenitors with or without PF-04449913 treatment. Results: Notably, RNA-seq analyses revealed that Hh pathway and cell cycle regulatory gene overexpression correlated with leukemic progression. While lentivirally enforced GLI2 expression enhanced leukemic progenitor dormancy in stromal co-cultures, this was not observed with a mutant GLI2 lacking a transactivation domain, suggesting that GLI2 expression prevented cell cycle transit. Selective SMO inhibition with PF-04449913 in humanized stromal co-cultures and LSC xenografts reduced downstream GLI2 protein and cell cycle regulatory gene expression. Moreover, SMO inhibition enhanced cell cycle transit and sensitized BC LSC to tyrosine kinase inhibition in vivo at doses that spare normal HSC. Conclusion: In summary, while GLI2, forms part of a core HH pathway transcriptional regulatory network that promotes human myeloid leukemic progression and dormant LSC generation, selective inhibition with PF-04449913 reduces the dormant LSC burden thereby providing a strong rationale for clinical trials predicated on SMO inhibition in combination with TKIs or chemotherapeutic agents with the ultimate aim of obviating leukemic therapeutic resistance, persistence and progression.",

keywords = "Cell cycle, GLI2, Leukemia stem cells, PF-04449913, Smoothened SMO, Sonic hedgehog",

author = "Anil Sadarangani and Gabriel Pineda and Lennon, {Kathleen M.} and Chun, {Hye Jung} and Alice Shih and Schairer, {Annelie E.} and Court, {Angela C.} and Goff, {Daniel J.} and Prashad, {Sacha L.} and Ifat Geron and Russell Wall and McPherson, {John D.} and Moore, {Richard A.} and Minya Pu and Lei Bao and Amy Jackson-Fisher and Michael Munchhof and Todd VanArsdale and Tannishtha Reya and Morris, {Sheldon R.} and Minden, {Mark D.} and Karen Messer and Mikkola, {Hanna K.A.} and Marra, {Marco A.} and Hudson, {Thomas J.} and Jamieson, {Catriona H.M.}",

note = "Publisher Copyright: {\textcopyright} 2015 Sadarangani et al.; licensee BioMed Central.",

year = "2015",

month = dec,

day = "12",

doi = "10.1186/s12967-015-0453-9",

language = "אנגלית",

volume = "13",

pages = "1",

journal = "Journal of Translational Medicine",

issn = "1479-5876",

publisher = "BioMed Central Ltd.",

number = "1",

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Sadarangani, A, Pineda, G, Lennon, KM, Chun, HJ, Shih, A, Schairer, AE, Court, AC, Goff, DJ, Prashad, SL, Geron, I, Wall, R, McPherson, JD, Moore, RA, Pu, M, Bao, L, Jackson-Fisher, A, Munchhof, M, VanArsdale, T, Reya, T, Morris, SR, Minden, MD, Messer, K, Mikkola, HKA, Marra, MA, Hudson, TJ & Jamieson, CHM 2015, 'GLI2 inhibition abrogates human leukemia stem cell dormancy', Journal of Translational Medicine, vol. 13, no. 1, 98, pp. 1. https://doi.org/10.1186/s12967-015-0453-9

TY - JOUR

T1 - GLI2 inhibition abrogates human leukemia stem cell dormancy

AU - Sadarangani, Anil

AU - Pineda, Gabriel

AU - Lennon, Kathleen M.

AU - Chun, Hye Jung

AU - Shih, Alice

AU - Schairer, Annelie E.

AU - Court, Angela C.

AU - Goff, Daniel J.

AU - Prashad, Sacha L.

AU - Geron, Ifat

AU - Wall, Russell

AU - McPherson, John D.

AU - Moore, Richard A.

AU - Pu, Minya

AU - Bao, Lei

AU - Jackson-Fisher, Amy

AU - Munchhof, Michael

AU - VanArsdale, Todd

AU - Reya, Tannishtha

AU - Morris, Sheldon R.

AU - Minden, Mark D.

AU - Messer, Karen

AU - Mikkola, Hanna K.A.

AU - Marra, Marco A.

AU - Hudson, Thomas J.

AU - Jamieson, Catriona H.M.

PY - 2015/12/12

Y1 - 2015/12/12

N2 - Background: Dormant leukemia stem cells (LSC) promote therapeutic resistance and leukemic progression as a result of unbridled activation of stem cell gene expression programs. Thus, we hypothesized that 1) deregulation of the hedgehog (Hh) stem cell self-renewal and cell cycle regulatory pathway would promote dormant human LSC generation and 2) that PF-04449913, a clinical antagonist of the GLI2 transcriptional activator, smoothened (SMO), would enhance dormant human LSC eradication. Methods: To test these postulates, whole transcriptome RNA sequencing (RNA-seq), microarray, qRT-PCR, stromal co-culture, confocal fluorescence microscopic, nanoproteomic, serial transplantation and cell cycle analyses were performed on FACS purified normal, chronic phase (CP) chronic myeloid leukemia (CML), blast crisis (BC) phase CML progenitors with or without PF-04449913 treatment. Results: Notably, RNA-seq analyses revealed that Hh pathway and cell cycle regulatory gene overexpression correlated with leukemic progression. While lentivirally enforced GLI2 expression enhanced leukemic progenitor dormancy in stromal co-cultures, this was not observed with a mutant GLI2 lacking a transactivation domain, suggesting that GLI2 expression prevented cell cycle transit. Selective SMO inhibition with PF-04449913 in humanized stromal co-cultures and LSC xenografts reduced downstream GLI2 protein and cell cycle regulatory gene expression. Moreover, SMO inhibition enhanced cell cycle transit and sensitized BC LSC to tyrosine kinase inhibition in vivo at doses that spare normal HSC. Conclusion: In summary, while GLI2, forms part of a core HH pathway transcriptional regulatory network that promotes human myeloid leukemic progression and dormant LSC generation, selective inhibition with PF-04449913 reduces the dormant LSC burden thereby providing a strong rationale for clinical trials predicated on SMO inhibition in combination with TKIs or chemotherapeutic agents with the ultimate aim of obviating leukemic therapeutic resistance, persistence and progression.

AB - Background: Dormant leukemia stem cells (LSC) promote therapeutic resistance and leukemic progression as a result of unbridled activation of stem cell gene expression programs. Thus, we hypothesized that 1) deregulation of the hedgehog (Hh) stem cell self-renewal and cell cycle regulatory pathway would promote dormant human LSC generation and 2) that PF-04449913, a clinical antagonist of the GLI2 transcriptional activator, smoothened (SMO), would enhance dormant human LSC eradication. Methods: To test these postulates, whole transcriptome RNA sequencing (RNA-seq), microarray, qRT-PCR, stromal co-culture, confocal fluorescence microscopic, nanoproteomic, serial transplantation and cell cycle analyses were performed on FACS purified normal, chronic phase (CP) chronic myeloid leukemia (CML), blast crisis (BC) phase CML progenitors with or without PF-04449913 treatment. Results: Notably, RNA-seq analyses revealed that Hh pathway and cell cycle regulatory gene overexpression correlated with leukemic progression. While lentivirally enforced GLI2 expression enhanced leukemic progenitor dormancy in stromal co-cultures, this was not observed with a mutant GLI2 lacking a transactivation domain, suggesting that GLI2 expression prevented cell cycle transit. Selective SMO inhibition with PF-04449913 in humanized stromal co-cultures and LSC xenografts reduced downstream GLI2 protein and cell cycle regulatory gene expression. Moreover, SMO inhibition enhanced cell cycle transit and sensitized BC LSC to tyrosine kinase inhibition in vivo at doses that spare normal HSC. Conclusion: In summary, while GLI2, forms part of a core HH pathway transcriptional regulatory network that promotes human myeloid leukemic progression and dormant LSC generation, selective inhibition with PF-04449913 reduces the dormant LSC burden thereby providing a strong rationale for clinical trials predicated on SMO inhibition in combination with TKIs or chemotherapeutic agents with the ultimate aim of obviating leukemic therapeutic resistance, persistence and progression.

KW - Cell cycle

KW - GLI2

KW - Leukemia stem cells

KW - PF-04449913

KW - Smoothened SMO

KW - Sonic hedgehog

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GLI2 inhibition abrogates human leukemia stem cell dormancy

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